WO1994009622A1 - Indicating device for fishing rods - Google Patents

Indicating device for fishing rods Download PDF

Info

Publication number
WO1994009622A1
WO1994009622A1 PCT/CA1993/000460 CA9300460W WO9409622A1 WO 1994009622 A1 WO1994009622 A1 WO 1994009622A1 CA 9300460 W CA9300460 W CA 9300460W WO 9409622 A1 WO9409622 A1 WO 9409622A1
Authority
WO
WIPO (PCT)
Prior art keywords
mercury
terminal
positive contact
tilt switch
fishing rod
Prior art date
Application number
PCT/CA1993/000460
Other languages
French (fr)
Inventor
Michael P. Ratcliffe
Ralph D. Ratcliffe
Timothy R. Ratcliffe
Wayne A. Ratcliffe
Original Assignee
Lure Lite Incorporated
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Lure Lite Incorporated filed Critical Lure Lite Incorporated
Priority to AU53680/94A priority Critical patent/AU5368094A/en
Publication of WO1994009622A1 publication Critical patent/WO1994009622A1/en

Links

Classifications

    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01KANIMAL HUSBANDRY; AVICULTURE; APICULTURE; PISCICULTURE; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
    • A01K97/00Accessories for angling
    • A01K97/12Signalling devices, e.g. tip-up devices
    • A01K97/125Signalling devices, e.g. tip-up devices using electronic components

Definitions

  • This invention relates to fishing rods and more particularly to devices to be used in conjunction with fishing rods. Specifically, an electrically powered i indicating device is disclosed.
  • Sport fishing is a very popular recreational pastime and is usually performed in a very relaxed manner. Often, a person fishing will sit back and rest or generally socialize with other people that might be fishing with him, and not pay close attention to the fishing rod. It is, however, necessary to know when one is fishing, whether a fish is biting at the hook or has even been caught by the hook. This is typically done in one of two ways. The person fishing can hold onto the fishing rod and through tactile senses tell when the fishing rod moves, or alternatively the person can hear when the fishing line suddenly starts to unravel from the fishing rod. Often, a person fishing does not want to make the effort to continuously hold the fishing rod. Further, if a fish is only nibbling at the hook the line might not be unravelling noticeably.
  • a person fishing might have more than one fishing rod in use at any given time depending on local laws or regulations. This may also occur when a person is fishing with someone such as a child who might need assistance with a fishing rod. In any event, it may be desirable for a person to have a means to monitor other fishing rods to determine whether a fish is perhaps nibbling or has been caught on the hook. It is useful to be able to tell when a fish might be nibbling at a hook as opposed to actually being caught on a hook, because the actions required to ultimately land a fish that might be nibbling at a hook and one that is actually caught on the hook are quite different.
  • a fish that is nibbling on a hook may be ultimately hooked by pulling on the fishing line slightly to further attract the fish or to actually hook the fish. If it is believed that a fish has actually been caught on the hook, then the line is either reeled in quickly or is allowed to be pulled out by the fish, at the discretion of the person fishing. In any event, it is necessary to treat each type of situation separately. It is therefore desirable to be able to tell when a fish is nibbling at a hook and also when a fish has been caught on the hook.
  • PRIOR ART It is known to have an electrically activated device located on the end of a fishing rod, which device basically contains a battery, a light, and a mercury switch.
  • a battery When the end of the fishing rod is pulled down by tension on the fishing line as caused either by a fish caught on the hook or by a fish nibbling on the hook, the angle of orientation of such a prior art device changes so that the mercury switch closes and turns the light on. The light remains on steadily, however, until the tension on the fishing line is no longer present. It is not possible to discern the difference between a fish nibbling on the hook and a fish that has been caught on the hook.
  • the attachment When the fishing line is pulled on, thus pulling down the end of the rod, the attachment rotates past a horizontal orientation and thus becomes angled downwardly at its distal end.
  • the mercury switch becomes closed thereby completing the circuit and illuminating the light bulb.
  • the mercury switch remains closed until the distal end of the attachment is rotated generally in a reverse direction past horizontal — that is, until the distal end of the attachment is again angled upwardly. It can be seen that once the switch is turned on by a fish pulling on the fishing line and bending the end of the rod downwardly, it will generally not turn off until the rod is again oriented upwardly. It is virtually not possible to tell when a fish is nibbling at the hook on the line as compared to actually having been caught by the hook.
  • An electrically powered indicating device for use in conjunction with a fishing rod to indicate movement of a portion of the fishing rod, is disclosed.
  • the device comprises a protective housing having a generally hollow interior, a first datum point, a second datum point, and a first longitudinal axis passing through the first and second datum points.
  • An electrical power source having a first terminal and a second terminal is securely retained within the interior of the protective housing.
  • An electrically powered indicating means is securely retained by the protective housing, the indicating means having a first lead and a second lead.
  • the non-positive contact switch means has a generally hollow interior having a first end, a second end, and a second longitudinal axis generally centrally aligned within the hollow interior; a first terminal and a second terminal, with at least the first terminal disposed near the first end of the generally hollow interior; and a terminal bridge member adapted to contact the first and second terminals so as to thereby connect the first and second terminals in electrically conductive relation with each other.
  • the terminal bridge member can move within the hollow interior of the non- positive contact switch means in a direction that is, at least in part, perpendicular to the longitudinal axis so as to alternatingly connect the first and second terminals in electrically conductive relation with each other, and subsequently alternatingly make and break the connection upon vigorous and abrupt movement of the non-positive contact switch means in a direction that is at least in part perpendicular to the second longitudinal axis such that the non-positive contact switch means becomes correspondingly opened and closed intermittently.
  • the electrical power source, the electrically powered indicating means, and the switch means are in a complete electrical circuit, and the electrically powered indicating means is energized by the electrical power source when the switch means is closed.
  • the non-positive contact switch means initially becomes closed when the device is oriented such that the first datum point is lower than the second datum point. Subsequently to the non-positive contact switch means initially becoming closed, the non-positive contact switch means may become opened and closed intermittently upon abrupt vigorous movement of the device.
  • Figure 1 is a pictorial representation of the indicating device of the present invention attached to the end of a fishing rod with the fishing rod in a straight configuration, corresponding to not having a fish on the hook of the fishing line;
  • Figure 2 is a pictorial representation of the fishing rod of Figure 1 in a bent configuration, corresponding to having a fish either nibbling on or hooked on the hook of the fishing line;
  • Figure 3 is an enlarged view of a portion of Figure 1 with the indicating device of the present invention attached to the end of a fishing rod by an elastic member;
  • Figure 4 is a sectional view of the indicating device of Figure 1 having a light emitting diode as the indicating means;
  • Figure 5 is an end view of the indicating device of Figure 6, along lines
  • Figure 6 is an enlarged pictorial side view of the end of the fishing rod and indicating device as shown in Figure 2;
  • Figure 7 is an enlarged pictorial side view of the fishing rod and indicating device as shown in Figure 6, with the end of the fishing rod having been moved abruptly and vigorously so as to cause a change in the position of the mercury bead within the mercury switch;
  • Figure 8 is a sectional view of an alternative embodiment of the indicating device of the present invention, having a buzzer as the indicating means.
  • the fishing line 20 in use with the fishing line 22 thereon extending into water 24 and terminating at a hook 26.
  • a lure could be attached to the fishing line 22, with the lure having at least one hook thereon.
  • Securely attached to the distal end 28 of the fishing rod 20 is the indicating device 30 of the present invention.
  • the size of the indicating device 30 is about 3.8 cm in length and about 1.3 cm in diameter.
  • the hook 26 does not have a fish nibbling thereat nor does it have a fish caught thereon.
  • the fishing line 22 remains dormant with no tension on it, except for the weight of the hook and a sinker that might be attached thereto (not shown), or if the hook is in the form of a lure, the weight of the lure.
  • the fishing rod 20 is shown having a straight orientation.
  • a fish 32 has been caught on the hook 26, thus causing the fishing line 22 to be tensioned, and possibly causing the fishing line 22 to unravel from the spool 21.
  • the distal end 28 of the fishing rod 20 has been pulled downwardly, thus causing the indicating device 30 to light.
  • Abrupt and vigorous movement of the fish 32 caught on the hook 26 within the water 24 causes the indicating means 30 to turn on and off intermittently, as will be described subsequently.
  • FIG. 3 shows the indicating device 30 of the present invention securely, yet removably held to the fishing rod 20 near the distal end 28 thereof by way of an elastic member 34, which is preferably a loop of high quality elastic material that resists material degradation due to exposure to light, air, and water.
  • the indicating device 30 may easily be attached to the fishing rod 20 by this means at any position near the distal end 28 of the fishing rod 20, as deemed necessary by the person using the fishing rod 20.
  • FIG. 4 shows the indicating device 30 of the present invention in greater detail.
  • a protective housing 40 which is preferably made of a plastic material such as nylon, that generally houses the remaining components of the present invention.
  • the remaining components are inserted through an open end 41 in the protective housing 40, and into a generally hollow interior 42.
  • the first and second datum points 44, 46 are only for explanatory purposes and do not necessarily exist as specific physical entities on the indicating device 30.
  • the first and second datum points 44, 46 are chosen such that a first longitudinal axis "L" passes through the first datum point 44 and second datum point 46, and is generally centrally aligned along the hollow interior 42 of the protective housing 40. The purpose of the first datum point 44 and second datum point 46 will be described subsequently.
  • a slot 43 is defined by a pair of rails 49 and extends generally the length of the protective housing 40 and is used to receive the fishing rod 20 therein, thus allowing the indicating device 30 to be securely attached to the fishing rod 20.
  • An electrically powered indicating means preferably an electrically powered source of light such as an LED (light emitting diode) 50, extends outwardly from the second end 47 of the protective housing 40, so as to shine exteriorly to the protective housing 40.
  • the LED 50 is itself securely retained by friction within a holder 52, which is preferably also made of a resilient plastic material such as nylon.
  • the base 51 of the LED 50 is retained within a co ⁇ operating recess 53 of the holder 52.
  • the holder 52 is seated within the protective housing 40 extending outwardly from the open end 41 thereof, and is held therein by co-operating annular lips 61 and 63.
  • the lens portion 55 of the LED 50 extends through the opening 57 in the holder 52 and is generally visible from beyond the second end 47 of the protective housing 40.
  • a first lead 54 and a second lead 56 extend outwardly from the base 51 of the LED 50 and are preferably bent around the inner end 58 of the holder 52.
  • a first exposed portion 60 of the first lead 54 contacts a contact portion 73 of the electrically conductive strip 71 in electrically conductive relation therewith. Electrical contact of a second exposed portion 62 will be discussed subsequently.
  • the contact portion 73 of the electrically conductive strip 71 is disposed about one-quarter of the way around the open end 41, as can be seen in Figure 5.
  • the holder 52 can be rotated with respect to the open end 41 of the protective housing 40.
  • the first exposed portion 60 of the first lead 54 of the LED 50 wipes across the contact portion 73 of the electrically conductive strip 71 until it passes the end 75 thereof, at which time the first exposed portion 60 of the first lead 54 is no longer in electrically conductive relation with the electrically conductive strip 71.
  • the indicating device 30 is in effect turned off and closing of the mercury tilt switch 80 will not cause activation of the LED 50.
  • the holder 52 must be rotated such that the first exposed portion 60 of the first lead 54 contacts the contact portion 73 of the electrically conductive strip 71 in electrically conductive relation therewith, in order to allow the LED 50 to be activated by closing of the mercury tilt switch 80.
  • the holder 52, first lead 54 and contact portion 73 of the electrically conductive strip 71 act as an ON-OFF switch.
  • an electrical power source in the form of a pair of batteries 70, which are preferably button type batteries.
  • the batteries 70 will be considered to have a first terminal 72 and a second terminal 74.
  • the first terminal 72 contacts the second exposed portion 62 of the second lead 56 of the LED 50, in electrically conductive relation therewith.
  • the second terminal 74 of the batteries 70 contacts a spring member 76, which biases the batteries 70 toward the second lead 56 of the LED 50, thus ensuring positive electrical contact between the batteries 70 and the second lead 56 of the LED 50.
  • a non-positive contact switch means which is a mercury tilt switch 80.
  • the LED 50, the batteries 70 and the mercury tilt switch 80 are contained seriatim within the interior 42 of the protective housing 40.
  • the mercury tilt switch 80 is for intermittently turning on and off the LED 50, as will be described subsequently.
  • the mercury tilt switch 80 has a main body portion 81 defining a generally hollow interior 79, and a base 83.
  • a second longitudinal axis “M” passes through the mercury switch 80 and is generally centrally aligned within the hollow interior 79 thereof.
  • the second longitudinal axis “M” is substantially parallel to the longitudinal axis "L” of the protective housing 40, and in the preferred embodiment the two longitudinal axes "L” and “M” are essentially co-extensive.
  • a first terminal 82 is centrally disposed, preferably such that longitudinal axis "M” passes therethrough, at a first end 88 of the mercury tilt switch 80 and extends outwardly from the base 83.
  • This first terminal 82 is physically seated within a recess 37 within the first end 45 of the protective housing 40.
  • a second terminal 84 is disposed generally around the periphery of the generally hollow interior 79.
  • a mercury bead 86 is retained within the generally hollow interior 79 of the main body portion 81 of the mercury tilt switch 80 and is free to move around therein.
  • the mercury bead 86 is a terminal bridge member that is adapted to contact the first and second terminals 82, 84 to thereby connect the first and second terminals 82, 84 in electrically conductive relation with one another.
  • the distance between the first terminal 82 and the second terminal 84 is considerably less than the size of the mercury bead 86.
  • the distance between the first terminal 82 and the second terminal 84, and the size of the mercury bead 86 are such that the mercury bead 86 makes contact with the first terminal 82 when the second longitudinal axis "M" is about 7° form horizontal, with the first end 88 lower than the second end 89.
  • This angle of 7° is known as the actuation angle.
  • the mercury bead 86 can move within the generally hollow interior 79 of the mercury tilt switch 80 in a direction that is at least in part perpendicular to the second longitudinal axis "M".
  • the mercury bead 86 alternatingly connects the first and second terminals 82, 84 in electrically conductive relation with each other and subsequently breaks the connection, when the mercury tilt switch 80 is subjected to abrupt vigorous movement that is at least in part perpendicular to the second longitudinal axis "M". As the mercury bead 86 moves within the main body portion 81 it intermittently contacts the second terminal 84 and the internal end 87 of the first terminal 82.
  • the mercury bead 86 In order to electrically close the mercury tilt switch 80, which by definition means to make the first terminal 82 and the second terminal 84 in electrically conductive relation with one another through the mercury bead 86, the mercury bead 86 must contact both the internal end 87 of the first terminal 82 and second terminal 84 at the same time. It can be seen that this will occur when the mercury bead 86 is located generally at the vertex between the second terminal 84 and the base 83 of the mercury tilt switch 80.
  • the first terminal 82 contacts an electrically conductive strip 71 in electrically conductive relation therewith.
  • the electrically conductive strip 71 extends from the first end 45 of the protective housing 40 toward the open end 41 of the protective housing 40 and terminates in a contact portion 73, which contacts the first lead 54 of the LED 50 in electrically conductive relation therewith.
  • the spring member 76 receives the main body portion 81 of the mercury tilt switch 80 therein.
  • the outer casing of the main body portion 81 forms a second terminal 84.
  • the spring member 76 contacts the second terminal 84 in electrically conductive relation therewith.
  • the mercury tilt switch 80 is connected in series with the electrical power source, the batteries 70, and with the electrically powered indicating means, the LED 50.
  • the batteries 70, the LED 50, and the mercury tilt switch 80 are in a complete series circuit, which also includes the spring member 76 and the electrically conductive strip 71.
  • the LED is energized by the batteries 70 when the mercury tilt switch 80 is closed.
  • the mercury tilt switch 80 becomes closed when the mercury bead 86 contacts the second terminal 84 and the internal end 87 of the first terminal 82 at the same time. This occurs when the indicating device 30 is tilted such that the first datum point 44 is lower, with respect to horizontal, than the second datum point 46. It can further be seen that when the first datum point 44 is higher, with respect to horizontal, than the second datum point 46, the mercury bead 86 cannot contact the internal end 87 of the first terminal 82 and resultingly the indicating device 30 cannot turn on.
  • the mercury tilt switch 80 employed in the present invention has a mercury bead 86 therein that is substantially smaller than the internal end 87 of the mercury tilt switch 80.
  • the mercury bead 86 can move freely around the internal end 87 of the mercury tilt switch 80. In doing so the mercury bead 86 sometimes is in contact with the second terminal 84 and sometimes is not in contact with the second terminal 84.
  • the mercury bead 86 is, however, generally in contact with the first terminal 82 when the internal end 87 of the mercury tilt switch 80 is oriented substantially fully downwardly. In order for the mercury tilt switch 80 to be electrically closed, the mercury bead 86 must be in electrical contact with both the first terminal 82 and the second terminal 84 simultaneously.
  • the mercury tilt switch 80 Due to the generally flat shape of the internal end 87 of the mercury tilt switch 80, it is very difficult for the mercury bead 86 to remain over the centrally disposed first terminal 82 only and not to touch the peripherally disposed second terminal 84. Resultingly, the mercury tilt switch is closed almost certainly some of the time, typically most of the time, when the internal end 87 is oriented substantially fully downwardly. However, it can be seen that when the internal end 87 of the mercury tilt switch 80 is oriented substantially fully downwardly and the mercury tilt switch 80 is jostled or moved abruptly, the mercury bead 86 moves into and out of contact with the second terminal 84, and perhaps the first terminal 82, to thereby cause the mercury tilt switch 80 to be electrically closed only part of the time.
  • the term "non-positive" indicates that the mercury bead 86 makes contact with both of the first terminal 82 and the second terminal 84 just part of the time that the internal end 87 is oriented substantially fully downwardly, and that full positive contact is not ensured.
  • the indicating device 30 of the present invention will now be described with reference to Figures 6 and 7, which show the fishing rod 20 and fishing line 22 thereof, with the fishing line 22 being tensioned by a fish.
  • Figure 6 the distal end 28 of the fishing rod 20 has been pulled downwardly by the tension on the fishing line 22. This typically occurs when a fish is nibbling at the hook on the line 22 or has been first caught on the hook.
  • the indicating device 30 becomes tilted downwardly and oriented such that the first datum point 44 is lower, with respect to horizontal, than the second datum point 46. In this orientation, the mercury bead 86 contacts the second terminal 84 and the internal end 87 of the first terminal 82, thus closing the mercury tilt switch 80 and turning on the LED 50.
  • the mercury bead 86 in the mercury tilt switch 80 travels around within the main body portion 81 thereof. Such travel of the mercury bead 86 within the main body portion 81 causes intermittent contact by the mercury bead 86 with both the second terminal 84 and the internal end 87 of the first terminal 82 of the mercury tilt switch 80.
  • the mercury bead 86 is usually contacting at least one of the second terminal 84 or internal end 87 of the first terminal 82, but only intermittently contacts both the second terminal 84 and internal end 87 of the first terminal 82 at the same time.
  • the mercury tilt switch 80 is closed only intermittently, which in turn causes the LED 50 to be turned on in a corresponding intermittent manner.
  • the indicating device 30 indicates differently for a fish nibbling at the hook 26 of the fishing line 22 and a fish that has been fully caught on the hook 26 of the fishing line 22.
  • the indicating device 90 comprises an electrically powered sound generating device such as a buzzer 92 as the electrically powered indicating means.
  • the buzzer 92 might be desirable if a person finds that he does not tend to look at the indicating means frequently enough, or alternatively if the person using the fishing rod is vision impaired.
  • the other components of the indicating device 90 are similar or identical to those of the indicating device 30 as described in the preferred embodiment.
  • the fishing rod 20 maybe held at virtually any angle desired by the person fishing. It must be kept in mind, however, that the actuation angle, which is 7° in the preferred embodiment as described, is measured with respect to horizontal.
  • the angle the fishing pole is held at will therefore affect the amount the distal end 28 of the fishing rod 20 must be bent downwardly by the force of the fish 32 caught on the hook 26 in order for the mercury tilt switch 80 to become initially closed. It can be seen that the suspected weight and strength of the type of fish being sought might affect the angle that the fishing rod 20 is initially held at.
  • the angle of mounting of the indicating device 30 on the fishing rod 20 may be set as desired by interposing an angled mounting means, such as a small block of wood or plastic, between the indicating device 30 and the fishing rod 20.
  • an adjustable angle mounting member could be included for mounting the indicating device 20 at any one of a variety of angles with respect to the fishing rod 20.
  • the mercury tilt switch 80 could be replaced, for example, with a reed or a magnetic reed switch, or a microswitch, where in any event the operation is as a non-positive contact switch show actuation is controlled by movement beyond an actuation angle, or by a predetermined jostling force.
  • Other modifications and alterations may be used in the design and manufacture of the indicating device of the present invention without departing from the spirit and scope of the accompanying claims.

Landscapes

  • Life Sciences & Earth Sciences (AREA)
  • Environmental Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Microelectronics & Electronic Packaging (AREA)
  • Animal Husbandry (AREA)
  • Biodiversity & Conservation Biology (AREA)

Abstract

An electrically powered indicating device (30) for use in conjunction with a fishing rod (20) is disclosed. The device indicates when the end of the fishing rod remote to the handle is pulled downwardly, and distinguishes between a fish (32) nibbling at the hook (26) on the fishing line (22) and a fish caught on the hook of the fishing line. The device comprises a protective housing (40), an electrical power source, such as a battery (70), an electrically powered indicating means such as a light emitting diode (50) or buzzer, and a non-positive contact switch means such as a mercury tilt switch (80), all electrically connected in series with one another. When the device becomes tilted past a certain orientation, the non-positive switch means becomes closed, thus turning on the indicating means. When the non-positive contact switch means is closed and the device is moved abruptly or vigorously, the non-positive contact switch means becomes opened and closed intermittently. It is thereby possible to distinguish between a fish nibbling on a hook and a fish that is caught on a hook.

Description

INDICATING DEVICE FOR FISHING RODS
FIELD OF THE INVENTION:
This invention relates to fishing rods and more particularly to devices to be used in conjunction with fishing rods. Specifically, an electrically powered i indicating device is disclosed.
BACKGROUND OF THE INVENTION:
Sport fishing is a very popular recreational pastime and is usually performed in a very relaxed manner. Often, a person fishing will sit back and rest or generally socialize with other people that might be fishing with him, and not pay close attention to the fishing rod. It is, however, necessary to know when one is fishing, whether a fish is biting at the hook or has even been caught by the hook. This is typically done in one of two ways. The person fishing can hold onto the fishing rod and through tactile senses tell when the fishing rod moves, or alternatively the person can hear when the fishing line suddenly starts to unravel from the fishing rod. Often, a person fishing does not want to make the effort to continuously hold the fishing rod. Further, if a fish is only nibbling at the hook the line might not be unravelling noticeably. It is very common for a person fishing to merely sit back at a distance from the fishing rod and wait for some sort of indication that a fish is nibbling on the hook or has been fully caught on the hook. It would therefore be desirable to be able to tell from a distance when a fish is nibbling at or is caught on the hook.
It is also possible that a person fishing might have more than one fishing rod in use at any given time depending on local laws or regulations. This may also occur when a person is fishing with someone such as a child who might need assistance with a fishing rod. In any event, it may be desirable for a person to have a means to monitor other fishing rods to determine whether a fish is perhaps nibbling or has been caught on the hook. It is useful to be able to tell when a fish might be nibbling at a hook as opposed to actually being caught on a hook, because the actions required to ultimately land a fish that might be nibbling at a hook and one that is actually caught on the hook are quite different. A fish that is nibbling on a hook may be ultimately hooked by pulling on the fishing line slightly to further attract the fish or to actually hook the fish. If it is believed that a fish has actually been caught on the hook, then the line is either reeled in quickly or is allowed to be pulled out by the fish, at the discretion of the person fishing. In any event, it is necessary to treat each type of situation separately. It is therefore desirable to be able to tell when a fish is nibbling at a hook and also when a fish has been caught on the hook.
Another situation wherein it is possibly even more desirable to be able to tell when a fish is either nibbling at a line or actually caught on the hook is during night fishing. It is difficult, however, to monitor one or more fishing lines, especially remotely, in the dark. It is especially difficult in the dark to discern whether a fish is nibbling at the hook of the line or whether the fish has been caught. It would be desirable to be able to remotely monitor one or more fishing rods in the dark.
It is an object of the present invention to provide an indicating device that permits a person fishing to remotely monitor the status of the fishing rod.
It is another object of the present invention to provide a monitoring device to allow a person fishing to remotely monitor a plurality of fishing rods.
It is yet another object of the present invention to allow a person fishing to remotely discern between a fish nibbling at the hook of the fishing line and a fish caught on the hook of the fishing line.
It is a further object of the present invention to provide a monitoring device to allow a person fishing to monitor the status of a fishing rod in the dark.
PRIOR ART: It is known to have an electrically activated device located on the end of a fishing rod, which device basically contains a battery, a light, and a mercury switch. When the end of the fishing rod is pulled down by tension on the fishing line as caused either by a fish caught on the hook or by a fish nibbling on the hook, the angle of orientation of such a prior art device changes so that the mercury switch closes and turns the light on. The light remains on steadily, however, until the tension on the fishing line is no longer present. It is not possible to discern the difference between a fish nibbling on the hook and a fish that has been caught on the hook.
A typical example of such a prior art device is disclosed in Canadian Patent 1,040,605 to Kaye, which discloses a Bite Signalling Light Attachment for Fishing Rods. This attachment has an elongated casing with a positive contact mercury switch, a battery, and a light bulb electrically connected in series. The mercury switch and the battery are fully enclosed by the casing. The light bulb projects outwardly from the proximal end of the casing, which faces the person holding the fishing rod. The attachment is secured to the end of a fishing rod distant from the handle such that the elongated casing is angled upwardly towards its distal end, which is the end that faces away from the person holding the fishing rod. When the fishing line is pulled on, thus pulling down the end of the rod, the attachment rotates past a horizontal orientation and thus becomes angled downwardly at its distal end. The mercury switch becomes closed thereby completing the circuit and illuminating the light bulb. The mercury switch remains closed until the distal end of the attachment is rotated generally in a reverse direction past horizontal — that is, until the distal end of the attachment is again angled upwardly. It can be seen that once the switch is turned on by a fish pulling on the fishing line and bending the end of the rod downwardly, it will generally not turn off until the rod is again oriented upwardly. It is virtually not possible to tell when a fish is nibbling at the hook on the line as compared to actually having been caught by the hook.
SUMMARY OF THE INVENTION: An electrically powered indicating device for use in conjunction with a fishing rod to indicate movement of a portion of the fishing rod, is disclosed. The device comprises a protective housing having a generally hollow interior, a first datum point, a second datum point, and a first longitudinal axis passing through the first and second datum points. An electrical power source having a first terminal and a second terminal is securely retained within the interior of the protective housing. An electrically powered indicating means is securely retained by the protective housing, the indicating means having a first lead and a second lead. There is a non-positive contact switch means electrically connected in series with the electrical power source and the electrically powered indicating means for turning on and off the electrically powered indicating means. The non-positive contact switch means has a generally hollow interior having a first end, a second end, and a second longitudinal axis generally centrally aligned within the hollow interior; a first terminal and a second terminal, with at least the first terminal disposed near the first end of the generally hollow interior; and a terminal bridge member adapted to contact the first and second terminals so as to thereby connect the first and second terminals in electrically conductive relation with each other. The terminal bridge member can move within the hollow interior of the non- positive contact switch means in a direction that is, at least in part, perpendicular to the longitudinal axis so as to alternatingly connect the first and second terminals in electrically conductive relation with each other, and subsequently alternatingly make and break the connection upon vigorous and abrupt movement of the non-positive contact switch means in a direction that is at least in part perpendicular to the second longitudinal axis such that the non-positive contact switch means becomes correspondingly opened and closed intermittently. The electrical power source, the electrically powered indicating means, and the switch means are in a complete electrical circuit, and the electrically powered indicating means is energized by the electrical power source when the switch means is closed. The non-positive contact switch means initially becomes closed when the device is oriented such that the first datum point is lower than the second datum point. Subsequently to the non-positive contact switch means initially becoming closed, the non-positive contact switch means may become opened and closed intermittently upon abrupt vigorous movement of the device. BRIEF DESCRIPTION OF THE DRAWINGS:
Embodiments of the present invention will now be described by way of the accompanying drawings, in which:
Figure 1 is a pictorial representation of the indicating device of the present invention attached to the end of a fishing rod with the fishing rod in a straight configuration, corresponding to not having a fish on the hook of the fishing line;
Figure 2 is a pictorial representation of the fishing rod of Figure 1 in a bent configuration, corresponding to having a fish either nibbling on or hooked on the hook of the fishing line; Figure 3 is an enlarged view of a portion of Figure 1 with the indicating device of the present invention attached to the end of a fishing rod by an elastic member;
Figure 4 is a sectional view of the indicating device of Figure 1 having a light emitting diode as the indicating means; Figure 5 is an end view of the indicating device of Figure 6, along lines
6-6;
Figure 6 is an enlarged pictorial side view of the end of the fishing rod and indicating device as shown in Figure 2;
Figure 7 is an enlarged pictorial side view of the fishing rod and indicating device as shown in Figure 6, with the end of the fishing rod having been moved abruptly and vigorously so as to cause a change in the position of the mercury bead within the mercury switch; and
Figure 8 is a sectional view of an alternative embodiment of the indicating device of the present invention, having a buzzer as the indicating means.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS :
Reference will now be made to Figures 1 and 2 which show a fishing rod
20 in use with the fishing line 22 thereon extending into water 24 and terminating at a hook 26. Alternatively, a lure could be attached to the fishing line 22, with the lure having at least one hook thereon. Securely attached to the distal end 28 of the fishing rod 20 is the indicating device 30 of the present invention. The size of the indicating device 30 is about 3.8 cm in length and about 1.3 cm in diameter. As can be seen in Figure 1, the hook 26 does not have a fish nibbling thereat nor does it have a fish caught thereon. Resultingly, the fishing line 22 remains dormant with no tension on it, except for the weight of the hook and a sinker that might be attached thereto (not shown), or if the hook is in the form of a lure, the weight of the lure. Thus, the fishing rod 20 is shown having a straight orientation. In Figure 2, a fish 32 has been caught on the hook 26, thus causing the fishing line 22 to be tensioned, and possibly causing the fishing line 22 to unravel from the spool 21. Moreover, the distal end 28 of the fishing rod 20 has been pulled downwardly, thus causing the indicating device 30 to light. Abrupt and vigorous movement of the fish 32 caught on the hook 26 within the water 24 causes the indicating means 30 to turn on and off intermittently, as will be described subsequently.
Reference will now be made to Figure 3 which shows the indicating device 30 of the present invention securely, yet removably held to the fishing rod 20 near the distal end 28 thereof by way of an elastic member 34, which is preferably a loop of high quality elastic material that resists material degradation due to exposure to light, air, and water. The indicating device 30 may easily be attached to the fishing rod 20 by this means at any position near the distal end 28 of the fishing rod 20, as deemed necessary by the person using the fishing rod 20.
Reference will now be made to Figure 4 which shows the indicating device 30 of the present invention in greater detail. There is a protective housing 40, which is preferably made of a plastic material such as nylon, that generally houses the remaining components of the present invention. The remaining components are inserted through an open end 41 in the protective housing 40, and into a generally hollow interior 42. There is a first datum point 44 towards the first end 45 and a second datum point 46 towards the second end 47. The first and second datum points 44, 46 are only for explanatory purposes and do not necessarily exist as specific physical entities on the indicating device 30. The first and second datum points 44, 46 are chosen such that a first longitudinal axis "L" passes through the first datum point 44 and second datum point 46, and is generally centrally aligned along the hollow interior 42 of the protective housing 40. The purpose of the first datum point 44 and second datum point 46 will be described subsequently.
A slot 43 is defined by a pair of rails 49 and extends generally the length of the protective housing 40 and is used to receive the fishing rod 20 therein, thus allowing the indicating device 30 to be securely attached to the fishing rod 20.
An electrically powered indicating means, preferably an electrically powered source of light such as an LED (light emitting diode) 50, extends outwardly from the second end 47 of the protective housing 40, so as to shine exteriorly to the protective housing 40. The LED 50 is itself securely retained by friction within a holder 52, which is preferably also made of a resilient plastic material such as nylon. The base 51 of the LED 50 is retained within a co¬ operating recess 53 of the holder 52. The holder 52 is seated within the protective housing 40 extending outwardly from the open end 41 thereof, and is held therein by co-operating annular lips 61 and 63. The lens portion 55 of the LED 50 extends through the opening 57 in the holder 52 and is generally visible from beyond the second end 47 of the protective housing 40.
A first lead 54 and a second lead 56 extend outwardly from the base 51 of the LED 50 and are preferably bent around the inner end 58 of the holder 52. A first exposed portion 60 of the first lead 54 contacts a contact portion 73 of the electrically conductive strip 71 in electrically conductive relation therewith. Electrical contact of a second exposed portion 62 will be discussed subsequently.
The contact portion 73 of the electrically conductive strip 71 is disposed about one-quarter of the way around the open end 41, as can be seen in Figure 5. The holder 52 can be rotated with respect to the open end 41 of the protective housing 40. In this manner, the first exposed portion 60 of the first lead 54 of the LED 50 wipes across the contact portion 73 of the electrically conductive strip 71 until it passes the end 75 thereof, at which time the first exposed portion 60 of the first lead 54 is no longer in electrically conductive relation with the electrically conductive strip 71. Resultingly, the indicating device 30 is in effect turned off and closing of the mercury tilt switch 80 will not cause activation of the LED 50. The holder 52 must be rotated such that the first exposed portion 60 of the first lead 54 contacts the contact portion 73 of the electrically conductive strip 71 in electrically conductive relation therewith, in order to allow the LED 50 to be activated by closing of the mercury tilt switch 80. The holder 52, first lead 54 and contact portion 73 of the electrically conductive strip 71 act as an ON-OFF switch.
Also retained within the protective housing 40 is an electrical power source in the form of a pair of batteries 70, which are preferably button type batteries. For the sake of illustrative purposes, the batteries 70 will be considered to have a first terminal 72 and a second terminal 74. The first terminal 72 contacts the second exposed portion 62 of the second lead 56 of the LED 50, in electrically conductive relation therewith. The second terminal 74 of the batteries 70 contacts a spring member 76, which biases the batteries 70 toward the second lead 56 of the LED 50, thus ensuring positive electrical contact between the batteries 70 and the second lead 56 of the LED 50.
At the closed end 36 of the hollow interior 42 of the protective housing 40 is a non-positive contact switch means, which is a mercury tilt switch 80. The LED 50, the batteries 70 and the mercury tilt switch 80 are contained seriatim within the interior 42 of the protective housing 40. The mercury tilt switch 80 is for intermittently turning on and off the LED 50, as will be described subsequently.
The mercury tilt switch 80 has a main body portion 81 defining a generally hollow interior 79, and a base 83. A second longitudinal axis "M" passes through the mercury switch 80 and is generally centrally aligned within the hollow interior 79 thereof. The second longitudinal axis "M" is substantially parallel to the longitudinal axis "L" of the protective housing 40, and in the preferred embodiment the two longitudinal axes "L" and "M" are essentially co-extensive. A first terminal 82 is centrally disposed, preferably such that longitudinal axis "M" passes therethrough, at a first end 88 of the mercury tilt switch 80 and extends outwardly from the base 83. This first terminal 82 is physically seated within a recess 37 within the first end 45 of the protective housing 40. A second terminal 84 is disposed generally around the periphery of the generally hollow interior 79. A mercury bead 86 is retained within the generally hollow interior 79 of the main body portion 81 of the mercury tilt switch 80 and is free to move around therein. The mercury bead 86 is a terminal bridge member that is adapted to contact the first and second terminals 82, 84 to thereby connect the first and second terminals 82, 84 in electrically conductive relation with one another. The distance between the first terminal 82 and the second terminal 84 is considerably less than the size of the mercury bead 86. In the preferred embodiment the distance between the first terminal 82 and the second terminal 84, and the size of the mercury bead 86 are such that the mercury bead 86 makes contact with the first terminal 82 when the second longitudinal axis "M" is about 7° form horizontal, with the first end 88 lower than the second end 89. This angle of 7° is known as the actuation angle. The mercury bead 86 can move within the generally hollow interior 79 of the mercury tilt switch 80 in a direction that is at least in part perpendicular to the second longitudinal axis "M". The mercury bead 86 alternatingly connects the first and second terminals 82, 84 in electrically conductive relation with each other and subsequently breaks the connection, when the mercury tilt switch 80 is subjected to abrupt vigorous movement that is at least in part perpendicular to the second longitudinal axis "M". As the mercury bead 86 moves within the main body portion 81 it intermittently contacts the second terminal 84 and the internal end 87 of the first terminal 82.
In order to electrically close the mercury tilt switch 80, which by definition means to make the first terminal 82 and the second terminal 84 in electrically conductive relation with one another through the mercury bead 86, the mercury bead 86 must contact both the internal end 87 of the first terminal 82 and second terminal 84 at the same time. It can be seen that this will occur when the mercury bead 86 is located generally at the vertex between the second terminal 84 and the base 83 of the mercury tilt switch 80. The first terminal 82 contacts an electrically conductive strip 71 in electrically conductive relation therewith. The electrically conductive strip 71 extends from the first end 45 of the protective housing 40 toward the open end 41 of the protective housing 40 and terminates in a contact portion 73, which contacts the first lead 54 of the LED 50 in electrically conductive relation therewith.
The spring member 76 receives the main body portion 81 of the mercury tilt switch 80 therein. The outer casing of the main body portion 81 forms a second terminal 84. The spring member 76 contacts the second terminal 84 in electrically conductive relation therewith.
The mercury tilt switch 80 is connected in series with the electrical power source, the batteries 70, and with the electrically powered indicating means, the LED 50. The batteries 70, the LED 50, and the mercury tilt switch 80 are in a complete series circuit, which also includes the spring member 76 and the electrically conductive strip 71. The LED is energized by the batteries 70 when the mercury tilt switch 80 is closed.
It can be seen that the mercury tilt switch 80 becomes closed when the mercury bead 86 contacts the second terminal 84 and the internal end 87 of the first terminal 82 at the same time. This occurs when the indicating device 30 is tilted such that the first datum point 44 is lower, with respect to horizontal, than the second datum point 46. It can further be seen that when the first datum point 44 is higher, with respect to horizontal, than the second datum point 46, the mercury bead 86 cannot contact the internal end 87 of the first terminal 82 and resultingly the indicating device 30 cannot turn on. The mercury tilt switch 80 employed in the present invention has a mercury bead 86 therein that is substantially smaller than the internal end 87 of the mercury tilt switch 80. Thus, the mercury bead 86 can move freely around the internal end 87 of the mercury tilt switch 80. In doing so the mercury bead 86 sometimes is in contact with the second terminal 84 and sometimes is not in contact with the second terminal 84. The mercury bead 86 is, however, generally in contact with the first terminal 82 when the internal end 87 of the mercury tilt switch 80 is oriented substantially fully downwardly. In order for the mercury tilt switch 80 to be electrically closed, the mercury bead 86 must be in electrical contact with both the first terminal 82 and the second terminal 84 simultaneously. Due to the generally flat shape of the internal end 87 of the mercury tilt switch 80, it is very difficult for the mercury bead 86 to remain over the centrally disposed first terminal 82 only and not to touch the peripherally disposed second terminal 84. Resultingly, the mercury tilt switch is closed almost certainly some of the time, typically most of the time, when the internal end 87 is oriented substantially fully downwardly. However, it can be seen that when the internal end 87 of the mercury tilt switch 80 is oriented substantially fully downwardly and the mercury tilt switch 80 is jostled or moved abruptly, the mercury bead 86 moves into and out of contact with the second terminal 84, and perhaps the first terminal 82, to thereby cause the mercury tilt switch 80 to be electrically closed only part of the time. Positive continuous contact between the mercury bead 86 and the first and second terminals 82, 84 is not ensured — indeed, it is virtually guaranteed that no such contact will occur. Thus, in the present context, the term "non-positive" indicates that the mercury bead 86 makes contact with both of the first terminal 82 and the second terminal 84 just part of the time that the internal end 87 is oriented substantially fully downwardly, and that full positive contact is not ensured.
In the case of a common ordinary mercury switch, orienting the mercury switch such that the mercury bead falls to the contact end of the switch causes the mercury bead to be in electrical contact with both of the contacts, thus electrically closing the switch. If the mercury switch is jostled or otherwise moved, while remaining substantially in the same angular orientation, the mercury bead remains in positive electrical contact with both of the contacts. Thus, the mercury switch remains electrically closed.
The functioning of the indicating device 30 of the present invention will now be described with reference to Figures 6 and 7, which show the fishing rod 20 and fishing line 22 thereof, with the fishing line 22 being tensioned by a fish. In Figure 6, the distal end 28 of the fishing rod 20 has been pulled downwardly by the tension on the fishing line 22. This typically occurs when a fish is nibbling at the hook on the line 22 or has been first caught on the hook. In either case, the indicating device 30 becomes tilted downwardly and oriented such that the first datum point 44 is lower, with respect to horizontal, than the second datum point 46. In this orientation, the mercury bead 86 contacts the second terminal 84 and the internal end 87 of the first terminal 82, thus closing the mercury tilt switch 80 and turning on the LED 50.
In Figure 7, the fish has been caught on the hook, and is now causing abrupt vigorous movement of the fishing line 22 and correspondingly causing abrupt vigorous movement of the indicating device 30. Resultingly, the mercury bead 86 in the mercury tilt switch 80 travels around within the main body portion 81 thereof. Such travel of the mercury bead 86 within the main body portion 81 causes intermittent contact by the mercury bead 86 with both the second terminal 84 and the internal end 87 of the first terminal 82 of the mercury tilt switch 80. The mercury bead 86 is usually contacting at least one of the second terminal 84 or internal end 87 of the first terminal 82, but only intermittently contacts both the second terminal 84 and internal end 87 of the first terminal 82 at the same time. Resultingly, the mercury tilt switch 80 is closed only intermittently, which in turn causes the LED 50 to be turned on in a corresponding intermittent manner. In this manner, the indicating device 30 indicates differently for a fish nibbling at the hook 26 of the fishing line 22 and a fish that has been fully caught on the hook 26 of the fishing line 22.
In an alternative embodiment, as shown in Figure 8, the indicating device 90 comprises an electrically powered sound generating device such as a buzzer 92 as the electrically powered indicating means. The buzzer 92 might be desirable if a person finds that he does not tend to look at the indicating means frequently enough, or alternatively if the person using the fishing rod is vision impaired. The other components of the indicating device 90 are similar or identical to those of the indicating device 30 as described in the preferred embodiment. In use, the fishing rod 20 maybe held at virtually any angle desired by the person fishing. It must be kept in mind, however, that the actuation angle, which is 7° in the preferred embodiment as described, is measured with respect to horizontal. The angle the fishing pole is held at will therefore affect the amount the distal end 28 of the fishing rod 20 must be bent downwardly by the force of the fish 32 caught on the hook 26 in order for the mercury tilt switch 80 to become initially closed. It can be seen that the suspected weight and strength of the type of fish being sought might affect the angle that the fishing rod 20 is initially held at. Alternatively, the angle of mounting of the indicating device 30 on the fishing rod 20 may be set as desired by interposing an angled mounting means, such as a small block of wood or plastic, between the indicating device 30 and the fishing rod 20. In an alternative embodiment of the present invention, it is contemplated that an adjustable angle mounting member could be included for mounting the indicating device 20 at any one of a variety of angles with respect to the fishing rod 20.
The mercury tilt switch 80 could be replaced, for example, with a reed or a magnetic reed switch, or a microswitch, where in any event the operation is as a non-positive contact switch show actuation is controlled by movement beyond an actuation angle, or by a predetermined jostling force. Other modifications and alterations may be used in the design and manufacture of the indicating device of the present invention without departing from the spirit and scope of the accompanying claims.

Claims

WHAT IS CLAIMED IS:
1. An electrically powered indicating device (30) for use in conjunction with a fishing rod (20) to indicate movement of a portion of the fishing rod, said device comprising: means (49) for mounting said device on a fishing rod; a protective housing (40) having a generally hollow interior (42), a first datum point (44), a second datum point (46), and a first longitudinal axis ("L") passing through said first and second datum points; an electrical power source (70) having a first terminal (72) and a second terminal (74), said electrical power source being securely retained within said interior of said protective housing; an electrically powered indicating means (50) securely retained by said protective housing, said indicating means having a first lead (54) and a second lead (56); c h a r a c t e r i z e d i n t h a t a non-positive contact switch means (80) is electrically connected in series with said electrical power source and said electrically powered indicating means for turning on and off said electrically powered indicating means, wherein said non-positive contact switch means has a generally hollow interior (79) defined, in part, by a base (83) at a first end (88), and a generally peripherally disposed main body portion (81) with a second longitudinal axis ("M") generally centrally aligned within said hollow interior, said base being generally perpendicular to said second longitudinal axis; a first terminal (82) centrally located on said base and a second terminal (84) located on said main body portion and disposed in adjacent and peripheral relation to said base, and a terminal bridge member (86) of nominal size less than the inside diameter of the main body portion adapted to contact said first and second terminals so as to thereby connect said first and second terminals in electrically conductive relation with each other; wherein said electrical power source, said electrically powered indicating means, and said non-positive contact switch means are in a complete electrical circuit, and said electrically powered indicating means is energized by said electrical power source when said non-positive contact switch means is closed; wherein said non-positive contact switch means initially becomes closed when said device is oriented such that said first datum point is lower than said second datum point; and wherein, subsequently to said non-positive contact switch means becoming initially closed, movement of said terminal bridge member within said hollow interior of said non-positive contact switch means occurs generally across said base in such a manner so as to alternatingly make and break contact with said second terminal and thereby correspondingly intermittently connect said first and second terminals in electrically conductive relation with each other such that said non-positive contact switch means becomes correspondingly opened and closed intermittently.
2. The device of claim 1, wherein said non-positive contact switch means is a mercury tilt switch.
3. The device of claim 2, wherein said electrical power source is a battery.
4. The device of claim 3, wherein said device contains said battery and said mercury tilt switch in said interior thereof.
5. The device of claim 4, wherein said device is generally elongated and contains said battery and said mercury tilt switch physically displaced in seriatim in the interior thereof.
6. The device of claim 5, further comprising a spring member (76) situated in interposed relation between said second terminal of said non-positive contact switch means and said second terminal of said battery so as to connect said second terminal of said non-positive contact switch means and said second terminal of said battery in electrically conductive relation to each other.
7. The device of claim 6, wherein said device is substantially 3.8 cm long and substantially 1.3 cm in diameter.
8. The device of claim 7, wherein said protective housing is made of plastic.
9. The device of claim 1, wherein said protective housing is adapted for direct attachment to the rod portion of a fishing rod by way of a co-operating slot in said protective housing.
10. The device of claim 1, wherein said indicator means is an electrically powered source of light.
11. The device of claim 1, wherein said indicating means is an electrically powered sound generating device.
AMENDED CLAIMS
[received by the International Bureau on 21 March 1994 (21 .03.94) original claim 1 amended ; other claims unchanged (2 pages) ]
1. An electrically powered indicating device (30) for use in conjunction with a fishing rod (20) to indicate movement of a portion of the fishing rod, said device comprising: means (49) for mounting said device on a fishing rod; an electrical power source (70) having a first terminal (72) and a second terminal (74), said electrical power source being securely retained within said interior of said protective housing; an electrically powered indicating means (50) securely retained by said protective housing, said indicating means having a first lead (54) and a second lead (56); c h a r a c t e r i z e d i n t h a t a non-positive contact switch means (80) is electrically connected in series with said electrical power source and said electrically powered indicating means for turning on and off said electrically powered indicating means, wherein said non-positive contact switch means has a generally hollow interior (79) defined, in part, by a base (83) at a first end (88), and a generally peripherally disposed main body portion (81) with a second longitudinal axis ("M") generally centrally aligned within said hollow interior, said base being generally perpendicular to said second longitudinal axis; a first terminal (82) centrally located on said base and a second terminal (84) located on said main body portion and disposed in adjacent and peripheral relation to said base, and a terminal bridge member (86) of nominal size less than the inside diameter of the main body portion adapted to contact said first and second terminals so as to thereby connect said first and second terminals in electrically conductive relation with each other; wherein said electrical power source, said electrically powered indicating means, and said non-positive contact switch means are in a complete electrical circuit, and said electrically powered indicating means is energized by said electrical power source when said non-positive contact switch means is closed; a protective housing (40) having a generally hollow interior (42), a first datum point (44), a second datum point (46), and a first longitudinal axis ("L") passing through said first and second datum points; wherein said non-positive contact switch means initially becomes closed when said device is oriented in any direction such that said first datum point is lower than said second datum point; and wherein, subsequently to said non-positive contact switch means becoming initially closed, movement of said terminal bridge member within said hollow interior of said non-positive contact switch means occurs generally across said base in such a manner so as to alternatingly make and break contact with said second terminal and thereby correspondingly intermittently connect said first and second terminals in electrically conductive relation with each other such that said non-positive contact switch means becomes correspondingly opened and closed intermittently.
2. The device of claim 1, wherein said non-positive contact switch means is a mercury tilt switch.
3. The device of claim 2, wherein said electrical power source is a battery.
4. The device of claim 3, wherein said device contains said battery and said mercury tilt switch in said interior thereof.
5. The device of claim 4, wherein said device is generally elongated and contains said battery and said mercury tilt switch physically displaced in seriatim in the interior thereof.
STATEMENT UNDER ARTICLE 19
This is responsive to the International Search Report mailed January 20, 1994 (20.01.94), in the above application.
By separate letter accompanying this Statement, Applicant has submitted new pages by which revised claim 1 is now submitted in this application. Claim 1 has been amended to define over the prior art cited in the International Search Report dated January 20, 1994. The amendments to claim 1 will now be discussed in more detail.
Firstly, claim 1 has been recast by removing from the preamble the limitations describing the protective housing having a generally hollow interior, a first datum point, a second datum, and a first longitudinal axis passing through the first and second datum points. The preamble now accurately describes the prior art. Those limitations have been moved to the characterization portion of claim 1, so that the characterization portion of claim 1 now clearly defines over the prior art for the following reasons:
First, reference is made to Australian patent specification 21,443/67, which discloses an indicator light that comprises a battery, a light bulb, a conductive spring, and a "one-sided" mercury tilt switch that electrically connect together to form a complete electrical circuit that is encased within a housing. The indicator light is adjustably attached to a fishing rod by way of a clip that is rotatably secured to the housing. It is stated in the Australian patent specification that the invention lies in the use of the mercury tilt switch. When this device is oriented such that the mercury bead "M" is at the end of the switch having the contacts "G", electrical contact between the mercury bead "M" and the contacts "G" may be made intermittently. It is very important, however, to notice that if the mercury tilt switch is tilted such that the mercury bead "M" is located at the side of the mercury tilt switch away from the contacts "G", then the light bulb does not turn on. Indeed, if the mercury tilt switch is then moved or tilted slightly such that the mercury bead remains only at that half of the switch, then the mercury bead "M" will still not make contact with the contacts "G" and the light bulb will still not turn on. If, however, the mercury bead "M" happens to migrate over to the contacts "G", then the light bulb will be turned on. If the mercury bead remains on that side, even if the mercury bead moves around, it will remain in contact with the contacts "G". Accordingly, the light bulb will remain turned on ~ it will not flash. The only way to get the light bulb to flash while having the indicator light oriented such that the mercury bead "M" is disposed at the end of the mercury tilt switch with the contacts "G", is to ensure that the mercury bead "M" migrates from the area with the contacts "G" to the area without the contacts "G". This means that the indicator light will flash only in a very specific set of circumstances and also that the indicator light must be positioned and oriented in a particular manner on a fishing rod, which tends to produce very poor results in term of having a light blink in a reasonably predictably manner when the hook on the line of the fishing rod is "struck" by a fish.
The device disclosed in the Australian patent specification is very specifically orientation related. The inventor has recognized that only after the device has been mounted onto the rod and after the rod has been put into use, then and only then can the adjustment be made.
Indeed, this has been recognized by the inventor, and the means for attaching this device to a fishing rod, namely the clip "F", is rotatably attached to the housing so that the device can be oriented on the fishing rod so as to turn on when in an expected deflected configuration. This is necessary due to the "one-sided" type of mercury tilt switch that is used in this device. Such adjustable attachment of the indicator light is inconvenient and prone to error.
In complete contrast, the present invention uses a mercury tilt switch that has a first terminal centrally located on the base and a second terminal that is located in adjacent and peripheral relation to the base, and is claimed as such in claim 1. In this manner, when the mercury bead reaches the "terminal" end of the mercury tilt switch, contact with the first and second terminals will undoubtedly be made and the mercury tilt switch will definitely be turned on initially. Further, no matter which direction the device is tilted, once contact of the mercury bead with the first and second terminals has been made, it can not stay out of contact with either one of the terminals for more than a very brief period, unless again tilted such that the mercury bead leaves that end of the mercury tilt switch or at least is about to leave that end of the mercury tilt switch. It can therefore be seen that the device of the present invention works at any orientation once the end of the mercury tilt switch that has the contacts thereat is pointed downwardly. This is not true whatsoever for the mercury tilt switch found in the Australian patent specification 21,443/67. Applicant considers the Australian patent specification 21,443/67 to be the most relevant prior art known. The other prior art uncovered and made of record in the International Search Report does not disclose the use of a mercury tilt switch at all.
Therefore, it is respectfully submitted that claim 1 as amended herein and as now standing in this application is allowable without further comment.
Accordingly, Applicant submits that this application is in clearly allowable condition since it defines over all known prior art.
PCT/CA1993/000460 1992-10-28 1993-10-27 Indicating device for fishing rods WO1994009622A1 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
AU53680/94A AU5368094A (en) 1992-10-28 1993-10-27 Indicating device for fishing rods

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
US967,056 1992-10-28
US07/967,056 US5274943A (en) 1992-10-28 1992-10-28 Indicating device for fishing rods

Publications (1)

Publication Number Publication Date
WO1994009622A1 true WO1994009622A1 (en) 1994-05-11

Family

ID=25512244

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/CA1993/000460 WO1994009622A1 (en) 1992-10-28 1993-10-27 Indicating device for fishing rods

Country Status (3)

Country Link
US (1) US5274943A (en)
AU (1) AU5368094A (en)
WO (1) WO1994009622A1 (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
ES2123386A1 (en) * 1995-06-30 1999-01-01 Ros Y Pascual S L Luminous sensor for fishing rods.

Families Citing this family (22)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB2286512A (en) * 1994-02-19 1995-08-23 John Lawrence Stirl Hofgartner Fish bite indicator
US5797211A (en) * 1995-06-28 1998-08-25 Bae; Tae Hong Position-sensing light and alarm for a fishing rod
USD381735S (en) * 1996-04-29 1997-07-29 Anthony Richard Dirito Fish bite detector
US6708441B2 (en) 1996-04-29 2004-03-23 Anthony Richard Dirito Fish bite detector
US5855084A (en) * 1996-10-17 1999-01-05 Huddleston; J. C. Fishing pole tip illumination attachment
US5813161A (en) * 1997-02-06 1998-09-29 Yai; Hyunsoo Automatic fish hook setting assembly
US5943809A (en) * 1998-06-10 1999-08-31 Ring; Ronald W. Fishing pole with light source
US6393753B1 (en) * 2000-10-02 2002-05-28 George M Walker Fishing rod for alerting when a fish has been hooked
US6446380B1 (en) * 2000-11-13 2002-09-10 Dragan Radosavljevic Fish on alert rod
ITAP20010002U1 (en) * 2001-03-01 2001-06-01 O M C Di Federici Stefano ATTACHMENT INDICATOR FOR FISHING ROD
US7136386B2 (en) * 2001-07-19 2006-11-14 Sbc Technology Resources, Inc. Virtual private network over asynchronous transfer mode
US20030131520A1 (en) * 2002-01-16 2003-07-17 Fred Bagshaw Bite indicator
US7017296B2 (en) 2002-02-22 2006-03-28 Evergreen Outdoors, Inc. Automatic hook setting, fishing rod holder
US7140144B1 (en) 2002-06-17 2006-11-28 Morgan Joseph H Fishing rod with signal devices activated by fish-bite flexing of the fishing rod
US7003912B1 (en) * 2002-06-17 2006-02-28 Morgan Joseph H Fishing rod with signal devices activated by fish-bite flexing of the fishing rod
US6763630B1 (en) * 2002-10-22 2004-07-20 Charles E. Jenkins Free standing fishing alarm
US20050193616A1 (en) * 2004-03-03 2005-09-08 Johnson Bryan L. Fishing rod strike sensor
US20060057537A1 (en) * 2004-09-15 2006-03-16 Welch Allyn, Inc. Combination dental instrument
US7371066B2 (en) * 2004-09-15 2008-05-13 Miltex, Inc. Illuminated dental examination instrument
US7934338B2 (en) * 2007-12-19 2011-05-03 Tackobox Llc Fishing pole accessory
US7562488B1 (en) * 2007-12-31 2009-07-21 Pulstone Technologies, LLC Intelligent strike indicator
US11523598B2 (en) 2021-03-02 2022-12-13 Liviu Siladi Fishing light assembly

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB1398236A (en) * 1971-03-04 1975-06-18 Sagnella C Warning device
US4479321A (en) * 1982-11-15 1984-10-30 Welstead Robert F Night fishing light
FR2610727A1 (en) * 1987-02-11 1988-08-12 Maelstaf Serge Device for selective detection of tugs or impacts and signalling them by audible and light means
DE8900573U1 (en) * 1988-04-26 1989-05-11 Huber, Wolfgang, 8900 Augsburg Electronic bite indicator for fishing in the dark

Family Cites Families (15)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1541724A (en) * 1923-08-07 1925-06-09 Thomas A Waggoner Fishing float
US2001109A (en) * 1934-09-04 1935-05-14 Carlton J Petrie Fish line float
US2280457A (en) * 1940-10-08 1942-04-21 Harry M Suteliffe Illuminated fishing bob
DE1296452B (en) * 1966-01-20 1969-05-29 Fritz Paul J Float with an electric bite alarm for night fishing
US3918191A (en) * 1973-06-04 1975-11-11 John J Williamson Night-time fishing alarm
US3882629A (en) * 1973-10-09 1975-05-13 John A Kaye Fishing rod signal light
CA1040605A (en) * 1975-03-19 1978-10-17 John A. Kaye Bite signalling light attachment for fishing rods
US4399630A (en) * 1981-02-12 1983-08-23 Lawes Elmer E Fish detecting fishing rod and holder
US4399631A (en) * 1981-03-30 1983-08-23 Smith Claude T Fishing rod with bite signaling means
DE3200728A1 (en) * 1982-01-13 1983-07-21 Marjan 7060 Schorndorf Širca Light signal transmitter for a fishing rod
US4458437A (en) * 1982-05-25 1984-07-10 Ou Wen Show Signal device for use in fishing
US4458438A (en) * 1982-08-19 1984-07-10 Mcculley Allen R Fish striker indicator
US4590701A (en) * 1984-08-27 1986-05-27 Rivers William B Fishing pole alarm system
US4766688A (en) * 1987-05-08 1988-08-30 Richard Hiles Strike indicator for fishing tackle
US5125181A (en) * 1991-10-07 1992-06-30 Brinton David N Fish strike detector

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB1398236A (en) * 1971-03-04 1975-06-18 Sagnella C Warning device
US4479321A (en) * 1982-11-15 1984-10-30 Welstead Robert F Night fishing light
FR2610727A1 (en) * 1987-02-11 1988-08-12 Maelstaf Serge Device for selective detection of tugs or impacts and signalling them by audible and light means
DE8900573U1 (en) * 1988-04-26 1989-05-11 Huber, Wolfgang, 8900 Augsburg Electronic bite indicator for fishing in the dark

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
ES2123386A1 (en) * 1995-06-30 1999-01-01 Ros Y Pascual S L Luminous sensor for fishing rods.

Also Published As

Publication number Publication date
AU5368094A (en) 1994-05-24
US5274943A (en) 1994-01-04

Similar Documents

Publication Publication Date Title
US5274943A (en) Indicating device for fishing rods
US5228228A (en) Bite detector for fishing
US4586284A (en) Fishing line signal
US5331760A (en) Fish-attracting float
US7032343B1 (en) Ice fishing tip-up strike indicator
US4748761A (en) Fishing float
US5357410A (en) Lighted fishing pole
CA2253351A1 (en) Fish bite detector
US6119389A (en) Planar board having strike indication and ease of retrieval
US20110095894A1 (en) Portable fish bite alarm detector and fishing line release apparatus
US5797211A (en) Position-sensing light and alarm for a fishing rod
CA2346239C (en) Fishing bobber with strike-indicating radio transmitter
US6079144A (en) Motion actuated light
US4458438A (en) Fish striker indicator
US4109404A (en) Bite signalling fishing bobber with flexible housing
US6101757A (en) Fish strike indicator
US3020664A (en) Fishing signal device
US5943808A (en) Fish pole alarm mechanism
US3918191A (en) Night-time fishing alarm
US5321903A (en) Device for signaling an increase in fishline tension
US20070271835A1 (en) Fish strike indicating apparatus
US5586402A (en) Fishing rod bite indicator
US6433703B1 (en) Fishing reel signaling device
US5555667A (en) Position sensing light device for a fishing rod
US3959911A (en) Light and signal device

Legal Events

Date Code Title Description
AK Designated states

Kind code of ref document: A1

Designated state(s): AU BB BG BR BY CA CZ FI HU JP KP KR KZ LK MG MN MW NO NZ PL RO RU SD SK UA VN

AL Designated countries for regional patents

Kind code of ref document: A1

Designated state(s): AT BE CH DE DK ES FR GB GR IE IT LU MC NL PT SE BF BJ CF CG CI CM GA GN ML MR NE SN TD TG

DFPE Request for preliminary examination filed prior to expiration of 19th month from priority date (pct application filed before 20040101)
121 Ep: the epo has been informed by wipo that ep was designated in this application
122 Ep: pct application non-entry in european phase
NENP Non-entry into the national phase

Ref country code: CA